Educational guide School of Engineering |
english |
Computer Engineering: Computer Security and Intelligent Systems (2013) |
Subjects |
CRYPTOLOGY AND INFORMATION SECURITY |
Assessment |
IDENTIFYING DATA | 2016_17 |
Subject | CRYPTOLOGY AND INFORMATION SECURITY | Code | 17665108 | |||||
Study programme |
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Cycle | 2nd | |||||
Descriptors | Credits | Type | Year | Period | ||||
6 | Compulsory | First | 1Q |
Competences | Learning outcomes | Contents |
Planning | Methodologies | Personalized attention |
Assessment | Sources of information | Recommendations |
Methodologies | Competences | Description | Weight | ||||
Practicals using information and communication technologies (ICTs) in computer rooms |
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The students have to develop a cryptographic protocol. The practice will be done in groups of two. The practical work must have a minimum of five to pass the course. |
30 | ||||
Presentations / expositions |
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The students have to perform an oral presentation about an advanced cryptographic primitive. The presentation will be done in groups of two. They must obtain a minimum of five to pass the course. |
10 | ||||
Extended-answer tests |
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There are two written test. The first test comprises the following units: theoretical and mathematical aspects of cryptology, advanced cryptographic schemes, advanced digital signatures. The second test comprises the following units: secure multiparty computation, quantum cryptography. Both written tests have the same weight, i.e. a 30% each of them. Passing both tests is required to pass the course. |
60 | ||||
Others |
Other comments and second exam session | |||
Students who do not pass the subject in the continuous assessment have to carry out a examination on the second call, and deliver the practice. The exam will consist of three parts, corresponding to the three parts of the course: First part: advanced cryptographic primitives; Second part: theoretical and mathematical aspects of cryptology, advanced cryptographic schemes, advanced digital signatures. Third part: secure multiparty computation, quantum cryptography. Each part is scored out of 10 points. The students have to obtain at least 4 in each of the parts to pass the examination, and the weighted sum of the three parts must be greater than 5 points (first part 14%, second part 43% and third part 43%). The practice must have a minimum of five to pass the course. Otherwise, the students can no pass the course. Students may not bring any electronic devices on the written tests. |